Optical Stack Structure

2. The optical stack structure of claim 1, wherein the organic polymer layer directly contacts and encapsulates the metal nanowires.

3. The optical stack structure of claim 1, wherein a crosslinking degree of the matrix is greater than or equal to 80% and less than or equal to 100%, a content of volatile organic compounds in the matrix is less than or equal to 1%, and the content of the volatile organic compounds in the matrix is defined as a difference between a thermal weight loss of the matrix measured at the measuring temperature and a water content of the matrix measured at the measuring temperature.

4. The optical stack structure of claim 1, wherein some of the metal nanowires are embedded into the organic polymer layer.

5. The optical stack structure of claim 1, wherein the passivation layer directly contacts and encapsulates the metal nanowires.

6. The optical stack structure of claim 1, further comprising a cover plate disposed on the organic polymer layer, wherein a content of potassium element and a content of calcium element measured by an energy-dispersive X-ray analysis of a material of the cover plate are respectively less than or equal to 1%.

7. The optical stack structure of claim 1, further comprising a cover plate disposed on the organic polymer layer, wherein a content of sodium element and a content of potassium element measured by an energy-dispersive X-ray analysis of a material of the cover plate are respectively less than or equal to 1%.

9. The optical stack structure of claim 8, wherein the crosslinking degree of the organic polymer layer is about 86.3% and the content of volatile organic compounds in the organic polymer layer is about 0.56%.

10. The optical stack structure of claim 8, wherein the crosslinking degree of the organic polymer layer is about 88.9% and the content of volatile organic compounds in the organic polymer layer is about 0.62%.

11. The optical stack structure of claim 8, wherein the crosslinking degree of the organic polymer layer is about 91.1% and the content of volatile organic compounds in the organic polymer layer is about 0.32%.

12. The optical stack structure of claim 8, further comprising a cover plate disposed on the organic polymer layer, wherein a content of potassium element and a content of calcium element measured by an energy-dispersive X-ray analysis of a material of the cover plate are respectively less than or equal to 1%.

13. The optical stack structure of claim 8, further comprising a cover plate disposed on the organic polymer layer, wherein a content of sodium element and a content of potassium element measured by an energy-dispersive X-ray analysis of a material of the cover plate are respectively less than or equal to 1%.